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I have a method like this

template<typename T, typename U>
map<T,U> mapMapValues(map<T,U> old, T (f)(T,U))
    map<T,U> new;
    for(auto it = old.begin(); it != old.end(); ++it)
        new[it->first] = f(it->first,it->second);
    return new; 

and the idea is that you'd call it like this

    map<int,int> test;
    test[1] = 1;
    map<int,int> transformedMap = VlcFunctional::mapMapValues(test, 
        [&](int key, int value) -> int
            return key + 1; 

However I get the error: no instance of function template "VlcFunctional::mapMapValues" matches the argument list argument types are: (std::map, std::allocator>>, __lambda1)

Any idea what I'm doing wrong? Visual Studio 2008 and Intel C++ compiler 11.1

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new is a keyword you can't have a variable called new </nitpick> –  Motti Jul 8 '10 at 12:33
haha. Yes well spotted, because the code wasn't finding the correct template arguments this never actually got compiled so the compiler never bothered to point that out to me :) –  Jamie Cook Jul 8 '10 at 12:40

4 Answers 4

up vote 17 down vote accepted

Your function is expecting a function pointer, not a lambda.

In C++, there are, in general, 3 types of "callable objects".

  1. Function pointers.
  2. Function objects.
  3. Lambda functions.

If you want to be able to use all of these in your function interface, then you could use std::function:

template<typename T, typename U> 
map<T,U> mapMapValues(map<T,U> old, std::function<T(T, U)> f)

This will allow the function to be called using any of the three types of callable objects above. However, the price for this convenience is a small amount of overhead on invokations on the function (usually a null pointer check, then a call through a function pointer). This means that the function is almost certainly not inlined (except maybe with advanced WPO/LTO).

Alternatively, you could add an additional template parameter to take an arbitrary type for the second parameter. This will be more efficient, but you lose type-safety on the function used, and could lead to more code bloat.

template<typename T, typename U, typename F> 
map<T,U> mapMapValues(map<T,U> old, F f) 
share|improve this answer
I stumbled onto the second approach while perusing the std::transform source, however I still can't get the first approach to work because of error: namespace "std" has no member "function". Is there an included that I need? –  Jamie Cook Jul 8 '10 at 12:36
Related to the second approach: there are utilities from Boost to extract the return types and parameters list from a function, I wonder if they would work with a lambda or function object and could be used there with static asserts within the code. –  Matthieu M. Jul 8 '10 at 12:56
@matthieu, which utilities are you refering too. I had believed that the boost::function should achieve principally the same effect as @peter suggested with std::function however it had the same problems as using a function pointer in the declaration. –  Jamie Cook Jul 8 '10 at 13:20
You need to #include <functional> to use std::function –  Peter Alexander Jul 8 '10 at 13:40
@Jamie Cook: Boost Function Traits > boost.org/doc/libs/1_43_0/libs/functional/function_traits.html –  Matthieu M. Jul 8 '10 at 13:54

Your parameter type declaration T (f)(T,U) is of type 'free function taking a T and a U and returning a T'. You can't pass it a lambda, a function object, or anything except an actual function with that signature.

You could solve this by changing the type of the parameter to std::function<T(T,U)> like this:

template<typename T, typename U> 
map<T,U> mapMapValues(map<T,U> old, std::function<T(T,U)>)

Alternately, you could declare the function type as a template argument like this:

template<typename T, typename U, typename Fn> 
map<T,U> mapMapValues(map<T,U> old, Fn fn)
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Thanks Joe, I marked Peter's answer only because he was a minute quicker than you. Thanks tho. –  Jamie Cook Jul 8 '10 at 12:41

Lambda expressions with empty capture list should decay to function pointers, according to n3052. However it seems that this feature is not implemented in VC++ and only partially in g++, see my SO question.

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and not at all in Intel C++ 11.1 –  Jamie Cook Jul 9 '10 at 7:39

I would like to contribute this simple but self-explanatory example. It shows how to pass "callable things" (functions, function objects, and lambdas) to a function or to an object.

// g++ -std=c++11 thisFile.cpp

#include <iostream>
#include <thread>

using namespace std;

// -----------------------------------------------------------------
class Box {
  function<void(string)> theFunction; 
  bool funValid;

  Box () : funValid (false) { }

  void setFun (function<void(string)> f) {
    theFunction = f;
    funValid = true;

  void callIt () {
    if ( ! funValid ) return;
    theFunction (" hello from Box ");
}; // class

// -----------------------------------------------------------------
class FunClass {
  string msg;
  FunClass (string m) :  msg (m) { }
  void operator() (string s) {
    cout << msg <<  s << endl; 

// -----------------------------------------------------------------
void f (string s) {
  cout << s << endl;
} // ()

// -----------------------------------------------------------------
void call_it ( void (*pf) (string) ) {
  pf( "call_it: hello");
} // ()

// -----------------------------------------------------------------
void call_it1 ( function<void(string)> pf ) {
  pf( "call_it1: hello");
} // ()

// -----------------------------------------------------------------
int main() {

  int a = 1234;

  FunClass fc ( " christmas ");


  call_it ( f );

  call_it1 ( f );

  // conversion ERROR: call_it ( [&] (string s) -> void { cout << s << a << endl; } );

  call_it1 ( [&] (string s) -> void { cout << s << a << endl; } );

  Box ca;

  ca.callIt ();

  ca.setFun (f);

  ca.callIt ();

  ca.setFun ( [&] (string s) -> void { cout << s << a << endl; } );

  ca.callIt ();

  ca.setFun (fc);

  ca.callIt ();

} // ()
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